KR100725142B1 - Structure for establishment double tube protective high-tension cable - Google Patents

Abstract

A double pipe installation structure for high voltage cable installation protection is provided to perform underground laying construction by forming a circular pipe body on an outer circumference of a flexible cable pipe and forming a concrete layer between the flexible cable pipe and the circular pipe body. In a double pipe installation structure for high voltage cable installation protection, a concrete layer(130) is formed on an outer circumference of a flexible cable pipe(50). The concrete layer(130) is not displaced by physical external force. A circular pipe body(100) closely surrounds an outer circumference of the concrete layer(130). Lattice-shaped jackets(101,101') having coupling holes at regular intervals(102) are integrally extended at both opened sides of the circular pipe body(100) to face each other. A gasket(120) is interposed between the opened sides. The jackets are coupled to each other through a water leakage prevention cover having a jacket groove(140) and a coupling member.

Description

Structure for establishment double tube protective high-tension cable

1 is an exemplary view for explaining a general soil sedimentation phenomenon.

Figure 2 is an exemplary view of a conventional underground cable protective tube.

Figure 3 is a separate configuration of the double pipe installation structure according to the embodiment of the present invention.

4 is a cross-sectional view of a double pipe installation structure according to an embodiment of the present invention.

<Description of Signs for Main Parts of Drawings>

100: round tube 101, 101 ': jacket

102: fastening hole 110: fastening bolt

111: tightening nut 120: gasket

130: concrete layer 140: water leakage cover

141: Jacket Home

In particular, the present invention is to maintain the natural cable, high-voltage cable embedded in the ground and the flexible cable tube to protect it even if the soil is settled by physical phenomena such as tapping, backfilling and compaction using excavation equipment The present invention relates to a double pipe installation structure for protecting a high voltage cable installation.

In general, in the housing, commercial, agricultural, and industrial complexes, high-voltage cables are buried mainly in consideration of the safety and insulation of high-voltage cables, and in order to embed such high-voltage cables in the ground, Excavate the trench to a suitable depth (as determined by legislation), place the flexible cable tube on the excavated ground, and then return to the excavated soil, or before refilling, Manhole and manhole section) is made of a method of introducing a high-voltage cable.

Flexible cable pipes buried in such a process, besides the purpose of protecting high voltage cables passing through them, assist in the underground laying of high voltage cables and the replacement and repair of high voltage cables after installation.

The reason why the cable tube is made of flexible material to protect the high voltage cable is to prevent corrosion by the moist moisture distributed in the ground. Due to this advantage, the cable tube is inevitably flexible when laying the cable underground. It is supposed to use.

The flexible cable pipe used for this purpose should be kept intact even after a long time when it is buried in the ground, and heavy equipment that passes from time to time for the construction of this section Ground subsidence occurs due to the load of the vehicle and the pressurization of the earthen work of the bucket of the excavator, for example, a heavy duty vehicle.

Accordingly, the flexible cable tube, as shown in Figure 1, the sedimentary soil (B) backfilled by the above factors are settled, the sedimentary soil load (C) is intact as it is developed into a phenomenon that is crushed in the original state Done.

When the flexible cable tube is crushed due to such a phenomenon, the effect is exerted on the high voltage cable and the high voltage cable is pressurized. In this case, for example, due to the aging of the high voltage cable embedded in the ground for a long time, In addition, it is important to keep flexible cable pipes intact, because the expansion of a new high-voltage cable makes other work requirements difficult and a huge budget for repairing them.

In consideration of the importance of such a cable tube in the prior art, a multi-faceted method for protecting a flexible cable tube has been proposed. As an example, a patent registration publication No. 10-0626148 has been disclosed as a method of using a flexible connection tube.

To help understand the technology disclosed in the present invention, Figure 2 disclosed in Patent Registration No. 10-0626148 will be described with reference to FIG.

That is, the present invention is a synthetic resin corrugated pipe (50) where the underground cable is located on the inside, a pair of protective tubes 10 located at both ends of the synthetic resin corrugated pipe (50), and both ends of the synthetic resin corrugated pipe (50) inside With a fastening ring 20 to be fixed, a fastening long bolt 30 for fastening a pair of protective tubes inside the synthetic corrugated pipe 50, and an elastic connecting pipe 40 wrapped around the outer side of the synthetic corrugated pipe 50. We provide technology of constructed underground cable sheath.

However, this invention can prevent the cable connector from being crushed even if the ground load occurs due to the natural settlement of soil or ground compaction work. Since the airtightness is not enhanced every time, the infiltration water can easily flow into the cable.

As another embodiment of the prior art, Korean Patent Registration Nos. 10-0596459 and 10-0659207 also disclose a technique for protecting a cable tube.

However, the invention of the patent registration No. 10-0596459 has a structure that supports the underground line pipe (a term corresponding to the cable pipe) in the hollow state in the pipeline, which has formed a plurality of layers of pipelines, but the lower mounting bracket Not only does it cost a lot of construction costs, such as a significant depth of the trench to be installed, and a two-stage refilling of the earth and sand after the installation of the mounting stage. Has the disadvantage.

In addition, the invention of Patent Registration No. 10-0659207 is to prevent the damage of underground lines by stacking a porous foam lightweight cover with a plurality of shock-absorbing springs on the upper part of the underground line (corresponding to cable protection tube or cable tube) Although this is not a problem for the ground load sinking due to natural phenomena, it is not only a underground line but also the whole protection medium when the excavation equipment is grounded with considerable pressing force. .

Therefore, the present invention has been solved and devised in view of the above-mentioned general problems of the prior art, the purpose of the high-voltage cable buried in the ground even if the soil is settled by natural phenomena, excavation equipment and other physical phenomenon The present invention provides a double pipe installation structure for protecting a high voltage cable installation that can maintain a flexible cable pipe that protects it.

Specific means of the present invention for achieving the above object, in embedding a high-voltage cable and a flexible cable tube for protecting it in a underground position of a certain depth, the displacement does not occur even in the physical outer force on the outer periphery of the flexible cable tube A circular tube having one side open and a lattice-shaped jacket having fastening holes formed at regular intervals on both sides of the circular tube, respectively, which are integrally formed to form a concrete layer. It is configured to face each other, and the gasket is placed between the openings and between the jackets facing each other is achieved by configuring the coupling through the coupling member and the leakage preventing cover formed with a jacket groove.

Although not particularly limited in the above means and claims to achieve the object of the present invention as a technical matter implied by the present invention, it is assumed that the underlying composition is also included in the claims.

Referring to the configuration of the high-voltage cable installation protection double pipe installation structure presented in the embodiment of the present invention below based on the accompanying drawings.

3 is a view showing a separate configuration diagram of a double pipe installation structure according to an embodiment of the present invention, Figure 4 is a view showing a cross-sectional view of a double pipe installation structure according to an embodiment of the present invention.

As shown in Figure 3, the circular tube 100 applied to the present invention is manufactured in a length of the required length or the range allowed by the conveying means by one method of extrusion molding, which is relatively lightweight, but also strong and durable and slightly It is possible not only to be banded by applying a physical force but also to a synthetic resin material that does not deteriorate in corrosiveness and temperature change, or to steel stainless steel which is close to the above conditions and does not rust.

The circular tube 100 has a structure in which one side is cut off, and both sides of the round tube 100 form a lattice-shaped jacket 101 (101 ') extending upwardly, but in a state in which they face each other, the contact surfaces thereof are parallel to each other. It is configured to form a structure.

The reason for cutting one side of the circular tube 100 is to put the flexible cable tube 50, or the concrete with the concrete layer 130 formed between the cable tube 50 and the circular tube 100 It is to be injected, where concrete injection is not only injected between the incision, it may be injected into the cylindrical body 100 in the longitudinal direction in which the cable 25 is installed, which is the degree of installation And working conditions and the like.

In the extruded state, the circular pipe body 100 is generally circular in shape, and when the force is applied in the opposite direction through the opened jackets 101 and 101 ', the soluble cable pipe 50 can be sufficiently inserted. It is open to the extent that it is, and when it is released, it is restored to its original shape.

Accordingly, the conventional flexible cable tube 50 is inserted through the two jackets 101 and 101 'in which the circular tube body 100 is cut off, or the circular tube body 100 is flexible as described below. Since the jacket 101 and 101 'of the circular tube 100 are fitted with the leak-proof cover 140 by a structure having a larger diameter than the cable tube 50, the circular tube has a certain amount of free space. (You can put it at the start of 100.

And the two jackets (101, 101 ') to form a fastening hole 102 through which the fastening bolt 110 penetrates at regular intervals in contact with each other, between them for the purpose of close contact and relaxation of the contact surface and airtightness Performing gasket 120 is installed in the extrusion longitudinal direction of the circular tube (100).

In addition, the leakage preventing cover 140 is provided separately to bind the two jackets 101 and 101 'more firmly, and the leakage preventing cover 140 has two jackets 101 and 101' coupled to each other. The jacket groove 141 having the same structure as that of the structure is formed.

The jacket groove 141 in the above structure is such that the two jackets 101 and 101 'are sandwiched in the longitudinal direction of the circular tube 100, which is preferably slightly smaller than the thickness of the two jackets 101 and 101'. It is formed so that there is no inconvenience in fitting to form a large.

As illustrated in FIG. 4, the effect of the present invention configured as described above is to dig the ground to a depth prescribed by law or specification for embedding the flexible cable tube 50, and then to the excavated ground. Position the circular tube 100.

In this state, as described above, the jacket 101 (101 ') of the round tube body 100 is opened and the flexible cable tube 50 is inserted in the above-described manner, and then, depending on the degree of installation section and working conditions, and the like. Fasten with fastening bolts 110 and nuts 111 with fastening holes 102 formed in jackets 101 and 101 'and jackets 101 and 101' through jacket grooves 141 of the leakproof cover 140. ), Or in the state of not fastening them, selectively decide to inject liquid concrete.

Here, as an example of a method of injecting concrete in a state in which the jackets 101 and 101 'of the round tube 100 are opened, the jackets 101 and 101' may be provided from the starting position of the cylindrical tube 100 to an arbitrary section. In the state in which the leakproof cover 140 is fitted, the concrete can be injected in advance, followed by the tail, and can be carried out by advancing the leakproof cover 140.

In another method, the circular tubular body 100 is opened in a state in which the leakage preventing cover 140 is inserted into the jacket 101 and 101 'at both ends of the circular tubular body 100 to an arbitrary interval in the above-described manner. There is also a method of rapidly advancing in the direction of the concrete injection cover each leak prevention cover 140 located at both ends after the concrete is injected in the middle.

Unlike the method described above, the method of using the fastening bolt 110, as in the method of the second method of the upper limit, not the method of injecting concrete while proceeding the leak-proof cover 140 to the jacket 101 (101 '). It is also possible.

The concrete can be injected in another method in addition to the many methods presented above, but this is to be selectively determined according to the site situation and the judgment of the operator to the last, even if any method is selected, the liquid in the circular tube 100 Injecting concrete will not be too difficult.

As concrete is injected by the selected method described above, a concrete layer 130 is formed between the flexible cable tube 50 and the circular tube 100, and the liquid concrete injected into the concrete layer 130 is uniform. After time passes, it hardens to act as a solid.

The state acting as the solid is as shown in Figure 4, where the flexible cable in the step of injecting the concrete 50 is preferably to be located in the center of the concrete layer 130, if possible.

As an example of the process, a separate means for supporting the flexible cable tube 50 passed through the circular tube 100 in a hollow state in the circular tube 100 before injecting the liquid concrete Is achieved by.

The flotation means in the hollow state is achieved by suspending a separate pole that penetrates the flexible cable tube 50, or an appropriate amount in advance before the flexible cable tube 50 is positioned in the circular tube body 100. It is achieved by a method of injecting concrete into the circular tube (100).

And the flexible cable tube 50 in the circular tube 100 does not necessarily need to be located at the center, but preferably guided to be located at the center by one of the above-described support method to maintain a constant circumference of the concrete layer 130. It can be protected more stably by supporting by the cross-sectional thickness of.

Meanwhile, the leakage preventing cover 140 is installed on the jacket 101 and 101 'of the circular pipe 100 so as to face the upper part (ground) as shown in FIG. 4, and the leakage preventing cover 140 is Even if it is located at an angle in the ground not necessarily vertically upward, no problem occurs in the protection of the flexible cable tube 50.

Even if the leakage preventing cover 140 is located in any direction, the jacket 101 and 101 'are closely coupled to each other so that water cannot penetrate through the cover.

In the above description, there may be a number of terms expressed in two forms for the same function, but this is only a difference between terms, and the function is not different, which is intended to help the understanding of the flow in the process of explaining the composition and operation.

In addition, although the present invention has been described only with reference to the embodiments of FIGS. 3 and 4 in the detailed description, various configurations may be made and various modifications may be made by the implicit content not set forth herein.

As described above, the present invention is formed by forming another circular tube on the outer periphery of the flexible cable tube and forming a concrete layer therebetween, which makes it possible to achieve the underground construction work relatively easily, and any natural Even if the soil is sedimented by physical pressure such as tapping, backfilling, and compaction by using the excavation equipment, there is an excellent effect of maintaining the high voltage cable embedded in the ground and the flexible cable tube protecting the same.

Although not specifically limited to the above means and claims to achieve the object of the present invention, and complementary techniques that are within the scope of the teachings and other embodiments that can be altered within the scope of the present invention are also included in the claims of the present invention It is assumed that there is.

Claims (2)

In embedding the high-voltage cable and the flexible cable tube to protect the underground cable at a predetermined depth, the outer circumference of the flexible cable tube forms a concrete layer which does not generate displacement even in the physical external force, and the outer circumference of the concrete layer is A circular tube with one side wrapped tightly and an open side of the circular tube and a lattice-shaped jacket having fastening holes formed at regular intervals on both sides thereof are integrally extended so as to face each other, and a gasket is placed therebetween. High pressure cable installation protection double pipe installation structure characterized in that the jacket between the jacket groove is formed to be coupled through the coupling member and the fastening member formed between the facing jacket. The method of claim 1, wherein the circular tube 100 is a high pressure cable installation protection double pipe installation structure, characterized in that the extrusion integrally including a plurality of means through the jacket 101 (101 ').

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